Brattoli
Mark A. Brattoli, Fort Wayne, IN US
Patent application number | Description | Published |
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20100052590 | Methods and apparatus for monitoring average current and input power in an electronically commutated motor - A method for monitoring input power to an electronically commutated motor (ECM) is described. The method includes determining, with a processing device, an average input current to the motor, the average input current based on a voltage drop across a shunt resistor in series with the motor, measuring an average input voltage applied to the motor utilizing the processing device, multiplying the average input current by the average voltage to determine an approximate input power, and communicating the average input power to an external interface. | 03-04-2010 |
20130026962 | METHODS AND SYSTEMS FOR CONTROLLING A MOTOR - A control system for a motor includes an inverter coupled to the motor. The control system further includes a microcontroller coupled to the inverter. The microcontroller includes a processor programmed to measure an input voltage and acquire a back EMF voltage of the motor. The processor is also programmed to control the inverter to regulate the motor voltage based on the input voltage and the back EMF voltage to facilitate controlling the motor. | 01-31-2013 |
20130119906 | METHODS AND APPARATUS FOR ELECTRIC MOTOR CONTROLLER PROTECTION - A method for monitoring input power to an electronically commutated motor (ECM) is described. The method includes determining, with a processing device, an average input current to the motor, the average input current based on a voltage drop across a shunt resistor in series with the motor, measuring an average input voltage applied to the motor utilizing the processing device, multiplying the average input current by the average voltage to determine an approximate input power, and communicating the average input power to an external interface. | 05-16-2013 |
20140217844 | ELECTRICAL MACHINES AND METHODS OF ASSEMBLING THE SAME - A housing for coupling to a motor having an axis of rotation is provided. The housing includes an end cap having an outer surface and an inner surface. The housing also includes a plurality of first heat fins coupled to the outer surface. Each first heat fin of the plurality of first heat fins includes a first portion extending radially from the axis of rotation. In addition, the housing includes a second portion coupled to first portion and extending parallel to the axis of rotation. The housing further includes a second heat fin coupled to the second portion. | 08-07-2014 |
20150054442 | METHODS AND SYSTEMS FOR CONTROLLING A MOTOR - A control system for a motor includes an inverter coupled to the motor. The control system further includes a microcontroller coupled to the inverter. The microcontroller includes a processor programmed to measure an input voltage and acquire a back EMF voltage of the motor. The processor is also programmed to control the inverter to regulate the motor voltage based on the input voltage and the back EMF voltage to facilitate controlling the motor. | 02-26-2015 |
Michael A. Brattoli, Elyria, OH US
Patent application number | Description | Published |
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20090288716 | MIXING SILLCOCK - In one embodiment, a frost-free sillcock is provided. The sillcock has a single handle which rotates to control the temperature of the discharged fluid. The handle also moves axially toward and away from a mounting surface to control the volume of fluid discharged from the sillcock. Furthermore, the sillcock has valve components disposed on the inside of the mounting surface which can be serviced from outside of the mounting surface | 11-26-2009 |
Peitro Brattoli, Neckartenzlingen DE
Patent application number | Description | Published |
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20140325998 | Mobile Service Cart with Closed Circulation System - An improved refrigeration and heating system comprising a thermochemical device, and a mobile service cart. The thermochemical device is capable of refrigerating or cooling the ambient air due to an internal chemical process. This same chemical process also produces a significant amount of heat as a by-product which, if left alone, would normally be vented or released in to the atmosphere and become lost. However because the theremochemical device is disposed at the center of the cart, the heat which is generated by the cooling process is retained and utilized to provide a separate heating area within the cart. This allows the current system to operate as a closed loop, meaning that the cart and thermochemical device work in conjunction to form a self-sustaining hot and cold storage area with very little maintenance or input from a user. | 11-06-2014 |
Pietro Brattoli, Neckartenzlingen DE
Patent application number | Description | Published |
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20110278280 | Food Warming System - A pellet warming system includes a charging unit capable of warming a plurality of pellets contemporaneously. Each of the plurality of pellets comprise an internal heating element which resistively heats the body of the pellet from a regulated electrical current that is provided from the charging unit. The charging unit also comprises a controller board with means to control the duration of electric current supplied to each of the pellets as well as means for cycling electrical current to each of the pellets in order to maintain the resistively generated heat. Once heated, each pellet may have comestible goods disposed indirectly thereon through a plate, the pellet maintaining the comestible goods at an elevated temperature for an extended period of time. The charging unit further comprises means for a user to connect their PC to the controller board in order to alter its internal programming and view its operational history. | 11-17-2011 |
20120085745 | Dual Climate Cart and Tray for Accommodating Comestible Items and a Method of Operating the Same - A mobile cart for the heating or rethermalization of comestible items at two separate temperatures. A plurality of trays are disposed on a corresponding plurality of shelves within the cart. As each tray is slid onto the shelf, a thermal barrier bifurcates the space above the tray into portions. Each tray is also coupled to a socket disposed within the cart which supplies power to at least two filaments inside the tray, one filament comprising means for obtaining a higher temperature than the remaining filaments. The filaments heat one portion of each tray while the other portion, partitioned by the thermal barrier, is disposed within a portion of the cart which is maintained at or around 0° C. by a conventional refrigerator. Comestible items may then be disposed on either portion of the tray according to temperature preference, the tray and cart maintaining and rethermalizing the comestible items at the chosen temperature for an extended period of time. | 04-12-2012 |